find the kinetic energy kkk of the block at the moment labeled b. express your answer in terms of kkk and aaa .

The correct option is C ; Both type I and type II topoisomerases. A type I topoisomerase only breaks one strand of DNA, but a type II topoisomerase breaks both strands. Because of this mechanistic variation, the linking number of DNA, L, varies by 1 or 2 for type I and type II topoisomerases, respectively.

Type II topoisomerases function by causing a brief double-stranded DNA break, which is followed by a double-stranded DNA passage event As a result, these enzymes may remove superhelical twists from DNA and untangle knotted or tangled duplex molecules.

Negative supercoiling serves an essential biological purpose by promoting local- and global-strand separation of DNA molecules during transcription and replication.

Learn more about to  topoisomerases visit here;

https://brainly.com/question/15123509

#SPJ4

Frequency affects the pitch. The quantity of sound waves that reach the ear in a specific amount of time is known as frequency. According to the text, the pitch relies on frequency. Option (d) is correct.

The frequency of the sound waves affects pitch. The pitch increases as the frequency increases. While the loudness of a sound depends on the amplitude of sound waves, the pitch of a sound depends on its frequency. Sound wave size is determined by amplitude. It depends on how much energy created the initial waves. Waves with a larger amplitude produce louder sounds because they are more energetic and intense.

The energy of sound waves disperses more as they move away from their source. According to the data, pitch perception is influenced by tone strength; below 1000 Hz, pitch tends to decrease with increasing loudness, and beyond 1000 Hz, pitch tends to increase. If a tone is not long enough for pitch to be assigned, it is heard as a CLICK. The relationship between pitch and sound frequency is straightforward. Higher the frequency,higher will be the pitch and vice-versa.

To learn more about sound wave visit : brainly.com/question/1199084

#SPJ4

If a plant that was true-breeding for Purple-Axial Flowers was crossed with a plant that true-breeding for White-Terminal Flowers, what would be the expected phenotypic ratio two generations later option E: 9(Purple-Axial): 3(Purple-Terminal): 3(White-Axial): 1(White-Terminal)

Mendel examined a pea plant's various characteristics. As an illustration, some pea plants have white blossoms while others have purple flowers. Pea plants have the option of self- or cross-fertilization. Hybridization is the process of crossing two plants. Mendel required true-breeding plants to begin with, though. This indicates that the pea plant only exhibited one variation of the characteristic following generations of self-breeding. After several generations, a plant with purple flowers exclusively produced purple flowers; it never produced a plant with white flowers.

Mendel next crossed a purple flowering plant that was true to breed with a white flowering plant. This experiment is a monohybrid one. The result of a test cross between two plants that breed identically for one attribute is determined for each of the offspring plants.

To learn more about true-breeding Please visit the below link.

https://brainly.com/question/14257489

#SPJ4

Complete Question is :

In pea plants, there are two alleles for the gene controlling Flower Color, with the allele for Purple Flowers (P) being completely-dominant to the allele for White Flowers (p). Another gene controls Flower Position with the allele for Axial Flowers (A) being completely-dominant to the allele for Terminal Flowers (). If a plant that was true-breeding for Purple-Axial Flowers was crossed with a plant that true-breeding for White-Terminal Flowers, what would be the expected phenotypic ratio two generations later? a. 3(Purple-Axial): 1(White-Terminal) b. 3(White-Axial): 1(Purple-Terminal) c. 1(Purple-Axial): 1(White-Terminal) d. 1(Purple-Axial): 1(Purple-Terminal): 1(White-Axial): 1(White-Terminal) e. 9(Purple-Axial): 3(Purple-Terminal): 3(White-Axial): 1(White-Terminal)

The functional areas of the brain First-order somatosensory cortex Central Guslatooy Sulas - (7 Cin insulas) The Somatosensory Association in Primary Motor Cortex. Prefrontal context in Motar Association area 7 Lateral Sulces. -> Primary visual cortex Wernicke's Area Area of the Olfactory Association, or Booas.

On the medial surface of the brain, the precentral gyrus and anterior paracentral lobule are home to the primary motor cortex, or M1. The main motor cortex, out of the three motor cortex regions, takes the least electrical current to stimulate a movement.

The motor cortex's main job is to provide signals that control how the body moves. It is anterior to the central sulcus and a portion of the frontal lobe. The primary motor cortex, premotor cortex, and supplementary motor area make up this region.

The motor cortex generates signals that are particular to movements and sends them to the muscles via spinal cord circuits and motoneurons to regulate motor behavior. For the execution of movements to be precise, coordinated muscle activation patterns are required.

To learn more about Primary motor cortex. Please visit the below link.

https://brainly.com/question/4843927

#SPJ4

INCOMPLETE QUESTION

BELOW MENTIONED COMPLETE QUESTION

Label the functional areas of the brain by clicking and dragging the labels to the correct location. Broca’s area Prefrontal cortex Primary motor cortex Gustatory cortex (in insula Auditory association area Primary auditory cortex Olfactory association Visual association area area Primary somato- sensory cortex Cerebellum Lateral Motor association area sulcus Central sulcus Primary visual cortex Somatosensory association area Wernicke’s area Reset Zoom ?

The process by which a fish blastula (a ball of simple cells) develops into a complex fish with many organs and parts is called embryonic development. This process is controlled by a complex series of genetic and cellular processes that result in the differentiation of the blastula cells into the various cell types and tissues that make up a fish.

During embryonic development, the cells of the blastula begin to differentiate into two main cell types: the epiblast and the hypoblast. The epiblast cells give rise to the ectoderm, which forms the outer layer of the developing fish, and the hypoblast cells give rise to the endoderm, which forms the inner layer.

As development continues, the cells in the ectoderm and endoderm begin to differentiate further into the various tissues and organs of the fish. For example, the ectoderm gives rise to the skin, nervous system, and sensory organs, while the endoderm gives rise to the digestive system and respiratory organs.

In addition to this process of cell differentiation, embryonic development also involves the growth and specialization of cells and tissues through a process called morphogenesis. This process results in the formation of the various structures and organs of the fish, such as the heart, liver, and kidneys.

Overall, embryonic development is a complex and dynamic process that involves the coordination of many different genetic and cellular processes. Through this process, the simple cells of the fish blastula are transformed into a complex and highly organized organism with many specialized organs and parts.

Source:

opentextbc

Explanation:

The fish blastula is able to go from a ball of simple cells to a complex fish with many organs and parts through the process of embryonic development.

During embryonic development, the cells of the blastula undergo a series of changes that allow them to differentiate into the various tissues and organs of the adult fish. This process is controlled by a complex network of genes and regulatory molecules, which direct the cells to take on specific roles and functions.

One of the key steps in this process is called gastrulation, which occurs during the early stages of embryonic development. During gastrulation, the cells of the blastula begin to rearrange themselves, forming a two-layered structure called the gastrula. The outer layer of cells, called the ectoderm, will eventually give rise to the skin, nervous system, and other tissues. The inner layer of cells, called the endoderm, will give rise to the digestive system and other internal organs.

After gastrulation, the cells of the ectoderm and endoderm continue to differentiate and specialize, forming the various tissues and organs of the adult fish. This process is called organogenesis, and it involves the coordinated growth and development of the different cell types.

Overall, the fish blastula is able to go from a ball of simple cells to a complex fish with many organs and parts through the process of embryonic development. This process involves the coordinated growth and differentiation of the cells of the blastula, leading to the formation of the various tissues and organs of the adult fish.

In order to detect an odor, molecules must first dissolve in the mucus before they bind to the receptor sites of the olfactory system. When receptor cells temporarily bind to an odorant molecule, it results in a(n) action Potential over the olfactory neurons passing through the-foramina of the cribrifom plate and nerve fibers in the olfactory Bulb. Eventually the impulses arrive at interpreting centers located deep within the frontal lobes and the inferior Temporal lobes of the cerebrum.

Mucus is produced by the membranes in the nose and sinuses, and its main function is to trap bacteria, viruses, and allergens such as dust or pollen in the nose and prevent them from spreading it in body and result in making you sick. Eventually, the stool, and its contents, will go into the stomach and out of the body.

olfactory system, the body system that provides the sense of smell. The system consists of the nostrils and the nasal passages, which in their upper parts support the olfactory mucosa for smell perception and in their lower parts they act as respiratory passages.

The human skull has openings (foramina), through which cranial nerves, arteries, veins, and other structures pass. These foramina vary from size to size and from number to number, with age.

The cribriform plate is a part of the ethmoid bone located at the base of the skull. The base of the skull is the term used to describe the smallest part of the skull. It consists of parts of the frontal bone, ethmoid bone, sphenoid bone, temporal bone, and occipital bone.

For more such questions on olfactory system :

https://brainly.com/question/14272826

#SPJ4

Complete question:

complete the paragraph on sense of smell by clicking and dragging the labels to the correct location (given in image) (some labels will not be used.)

sepals, petals, stamens, carpels are correct order of floral organs from the outside to the inside of a complete flower.

The four primary whorls of a typical flower are the calyx, corolla, androecium, and gynoecium. The flower's outermost whorl is composed of sepals, which are green, leafy structures. The calyx, which is made up of the sepals, serves to shield the closed bud. The corolla, or collection of petals in the second whorl, are typically brilliantly colored. Whether a plant is a monocot or a dicot affects how many sepals and petals it has. Petal counts in dicots are typically four or five, or multiples of four and five, whereas they are typically three or multiples of three in monocots.

To learn more about monocots please visit here:

https://brainly.com/question/13048745

#SPJ4

Masses of lymphatic tissue are found along the digestive system and protect body against infection. They include lingual tonsils found at root of tongue, palatine tonsils found at back of the soft palate and pharyngeal tonsils also known as adenoids.

The lymphatic system is a network of delicate tubes in the body. It drains fluid which is called lymph that has leaked from the blood vessels in the tissues and then empties it back in bloodstream through the lymph nodes.

Tonsils are lymphoid tissues that are found at back of the throat and also helps in fighting infection. The tonsils are the ones on the sides of the throat that can be seen when you look at your throat in mirror and are called palatine tonsils.

To know more about lymphatic tissues, refer

https://brainly.com/question/14309840

#SPJ4

The term "gene" is frequently used to refer to a group of dna nucleotides that are translated into a single rna molecule.

The four nucleotides that make up DNA are adenine (A), thymine (T), guanine (G), and cytosine (C) (C). The two DNA strands are connected by base pairs, which are formed when the nucleotides (A with T and G with C) bind to one another. Nucleotides are organic compounds made up of a phosphate and a nucleoside. They function as monomeric units of the essential macromolecules found in all living forms on Earth, deoxyribonucleic acid and ribonucleic acid polymers.

In rapidly dividing stages, nucleotides are particularly important for DNA replication and RNA transcription. Additionally necessary for ATP and GTP production in cells, nucleotides have a variety of additional metabolic roles.

Natural substances known as nucleotides serve as the DNA's building blocks and are crucial for cell division. Your body's structural and functional components are encoded in your DNA, which functions like a sizable software program. Your body can't function effectively without healthy DNA.

To know more about DNA Nucleotides visit:

https://brainly.com/question/29237546

#SPJ4

When evaluating whether venous ablation would be a viable treatment option for venous reflux, the caliber and depth of the vein, duration of reflux, and presence of venous stasis changes are all important factors for a successful outcome. The course of the vessel is the least important factor.

The caliber and depth of the vein is an important factor for a successful outcome because the reflux must be treated through ablation of the entire involved vein segment. The duration of reflux is important because it gives a measure of how long the patient has been experiencing the symptoms of reflux and can provide valuable insight into how severe the reflux is. The presence of venous stasis changes gives an indication of the severity of the reflux and how much damage has been done to the veins.

The course of the vessel is the least important factor when considering whether venous ablation would be a viable treatment option because the ablation procedure is designed to treat the entire vein segment, regardless of its course. The course of the vessel may be important in determining the exact location of the ablation procedure but it is not necessary for a successful outcome.

Learn more about reflux at : https://brainly.com/question/29484768

#SPJ4

The percentage of similarity between nucleotides and proteins will be the same.

To know more about nucleotides

https://brainly.com/question/22272367

#SPJ4

The answer is Local. Prostaglandins, which are produced by and have an impact on the uterus, are what cause menstrual cramps. They are regarded as local hormones since they originate from and have an impact on the same region of the body.

The endometrial cells, also known as the cells that line the uterus, start to degrade and release many inflammatory prostaglandins before a period even starts. These substances cause the muscular layer to spasm and the blood arteries in the uterus to constrict, which results in excruciating cramps.

Prostaglandins cause the muscles in your uterus to contract during your menstruation. These contractions aid in the uterine lining's removal. Prostaglandin levels can make period cramps worse, and hard contractions can narrow the blood arteries surrounding the uterus.

Since prostaglandins originate in and have an effect on the same area of the body, we may conclude that they are thought of as local hormones.

LEARN MORE ABOUT PROSTAGLANDIN HERE:

https://brainly.com/question/27180318

#SPJ4

The electron donating or withdrawing ability of phosphines can be correlated with the CO stretching frequency of monophosphine metal carbonyls.

A few of the physical processes that rely on electron are gravity, electromagnetic interactions, weak interactions, electricity, magnetism, chemistry, and thermal conductivity. An observer monitoring an electron will produce a magnetic field since the electron has an electric field surrounding it because of its charge. According to the Lorentz force law, magnetic fields generated by external sources will alter the velocities of electrons. When electrons are accelerated, photons are either released or absorbed as energy.

To learn more about electron click on the given link: https://brainly.com/question/1255220

#SPJ4

Answer:

i love brainly its the best app i have ever used that's why i love this app

Major events of meiosis with the stage in which the events occur:

1.Homologous chromosomes are held together by the synaptonemal complex in synapsis - I. Prophase I

2.Two haploid daughter cells form, each having duplicated chromosomes - D. Telophase I and Cytokinesis

3.Nuclear envelope re-forms around the chromosomes - E. Telophase I/II and Cytokinesis

4.Tetrads align at the metaphase plate - H. Metaphase I

5.Duplicated chromosomes separate at the centromere - K. Anaphase II

6.Four haploid daughter cells form, each with a set of unduplicated chromosomes - G. Telophase II and Cytokinesis

7.The centrosome has duplicated in preparation for meiosis - B. Gap phase 2

8.Non-sister chromatids exchange genetic information during crossing over - I. Prophase I

9.Division of the cytoplasm occurs - E. Telophase I/II and Cytokinesis

10.Homologous chromosomes separate and move toward opposite poles - K. Anaphase II

11.Duplicated chromosomes are aligned at the metaphase plate - H. Metaphase I

12.Daughter (Unduplicated) chromosomes are moved to opposite poles - J. Anaphase I

13.The nuclear envelope breaks down - C. Prophase I and Prophase II

14.Chromosomes are not yet visible; DNA is in its long, stringy, uncoiled state - F. Prophase I and Prophase II

What is cell cycle?

A cell's growth and division are accompanied by a sequence of processes known as the cell cycle. A cell spends the majority of its time in what is known as interphase, where it develops, duplicates its chromosomes, and gets ready to divide. The cell then exits interphase, goes through mitosis, and finishes dividing.

Why is cell cycle important?

The primary purpose of the cell cycle is to accurately divide the enormous amount of DNA found in the chromosomes into two daughter cells that are genetically identical.

To know more about meiosis visit

brainly.com/question/29383386

#SPJ4

Below image is the phylogenetic tree for the four sequences.

A phylogenetic tree is a branching diagram or a tree that depicts the evolutionary relationships among different biological species or other entities based on similarities and differences in their physical or genetic traits. It is also known as an evolutionary tree or phylogeny. A single phylogenetic tree that represents the common ancestry of all life on Earth.

Each node in a rooted phylogenetic tree reflects the inferred most recent common ancestor of each descendant, and in some trees, the edge lengths can be interpreted as time estimates. The term "taxonomic unit" refers to each node. Due to their inability to be physically observed, internal nodes are typically referred to as hypothetical taxonomic units.

In biological disciplines like bioinformatics, systematics, and phylogenetics, trees are helpful. Unrooted trees don't require knowledge of or inference from the ancestral root; they just show how the leaf nodes are linked.

To learn more about phylogenetic tree from the given link

https://brainly.com/question/1378975

#SPJ1

The genetic diversity in the human population is mainly due to recombination or crossing over of DNA, during Prophase 1 of meiotic cell division.

During prophase 1 of meiotic cell division, the copied chromosomes condense to form X shaped structure by combining two sister chromatids. During this stage, the non-sister chromatids exchange bits of DNA. This process is called recombination or crossing over.

During the process of recombination the chromosomes exchange alleles, which results in the variation of gametes. This is one of the reasons siblings don't look alike. This process prevents the creation of copies of the same chromosomes.

So Recombination results in genetic diversity.

To understand further about meiosis please refer,

https://brainly.com/question/29383386

DNA Polymerization starts at the 3' end of the DNA strand and ends at the 5' end of the strand, which means option A is the right answer.

DNA Polymerization is the process of production of similar strand of DNA (also called as DNA polymers) by the help of enzyme DNA Polymerase which helps in replication of DNA strand and also helps in proofreading so as to repair any wrongly replicated nucleotide. DNA polymerase moves along the template strand in a 3'–5' direction and the daughter strand is formed in a 5'–3' direction. DNA polymerases' basic function is to accurately and efficiently replicate the genome and to ensure flow of genetic information and viability of species.

Learn more about DNA Polymerase at:

brainly.com/question/1343187

#SPJ4

Analysis of a blood sample from a fasting individual who had not eaten for 24 hours would be expected to reveal high levels of option D) glucagon.

A blood sample is an quantity of a personality's blood taken from their body to be used in medical tests. Collection blood samples is a oftentimes used technique to diagnose and monitor diseases, and because of blood samples, long and generally painful examinations will typically be avoided. Blood condition says one thing regarding the patient's overall health condition and divulges additional specific diseases and conditions.

Glucagon is a internal secretion that your exocrine gland makes to assist regulate your blood sugar (sugar) levels. endocrine will increase your glucose level and prevents it from dropping too low, whereas hypoglycemic agent, another internal secretion, decreases glucose levels.

To learn more about glucagon here

brainly.com/question/29438358

#SPJ4

The human heart muscle cell has more mitochondria than a skin cell because it needs more energy. Muscle cells need more energy to function which the mitochondria produces.

One reason why a human heart muscle cell would probably contain a higher proportion of mitochondria than a skin cell is mitochondria.

Each cardiac muscle cell, or cardiomyocyte, is a tubular structure made up of chains of myofibrils, which are rod-like components inside the cell. Sarcomeres, the primary contractile units of muscle cells, are repeated in sections to form the myofibrils.

Because it requires more energy, the human heart muscle cell has more mitochondria than a skin cell. To function, muscle cells require extra energy, which the mitochondria produce.

Therefore, human heart muscle cells are likely to have a higher percentage of mitochondria than skin cells for a number of reasons, including mitochondria.

To learn more about heart muscle cells, refer to the link:

https://brainly.com/question/28465505

#SPJ2

Chloroplasts and cyanobacteria contain membrane-bound compartments called thylakoids. They serve as the location of the photosynthetic reactions that depend on light. A thylakoid membrane surrounds a thylakoid lumen in thylakoids.

Chlorophyll pigments are present in bundles called quantasomes in thylakoid membranes. Between 230 to 250 chlorophyll molecules make up each quantasome.

The light-dependent photosynthesis reactions take place on the thylakoid membrane, where the photosynthetic pigments are physically incorporated into the membrane. It is made up of 1 nanometer-wide bands of light and dark material that alternate. The inner chloroplast membrane and prokaryotic membranes both share characteristics with the lipid bilayer that makes up the thylakoid cell.

To know more about photosynthesis, click here:

https://brainly.com/question/29764662

#SPJ4

Answer:

Anterior

Explanation:

Motor tracks in the spine can be found in the anterior (front) portion of the spinal cord. The spinal cord is a long, slender bundle of nerve tissue that extends from the base of the brain down through the spinal column. It is divided into two main regions: the posterior (back) region, which contains sensory neurons that carry information about sensation from the body to the brain, and the anterior (front) region, which contains motor neurons that carry information from the brain to the muscles and other organs in the body.

The motor tracks in the spinal cord are located in the anterior region, along with the sensory tracks that carry information from the body to the brain. These tracks are organized into columns of neurons called tracts, which are grouped according to the type of information they carry and the areas of the body they serve. Motor tracts carry information from the brain to the muscles and other organs, controlling movements and other functions.

Overall, motor tracks in the spine can be found in the anterior portion of the spinal cord, along with the sensory tracks that carry information from the body to the brain. These tracks are essential for controlling movements and other functions in the body.

alter the level of production of various enzymes.

A catabolite activator protein (CAP) interacts to DNA to promote transcription in a number of operons involved in sugar metabolism.

The availability of nutrients frequently affects the regulation of regulatory proteins in prokaryotes.As a result, organisms like bacteria can quickly modify their transcription patterns is response to their environment.

To know more about chemical signals visit:

https://brainly.com/question/13127914

#SPJ4

This biome is cool (5° to 25° C /41° to 77° F) and wet. It receives more than 200 cm (78 in) of rain per year and is usually found along coasts and temperate rainforests.

What is a biome?

A biome is described as a biogeographical unit consisting of a biological community that has formed in response to the physical environment in which they are found and a shared regional climate.

A Biome is a broader term than habitat and can comprise a variety of habitats.

The seven main Biomes of the World includes:

The Tundra is characterized by a short intense growing season and is cold with summers ranging 3-12° C (37° to 54° F) and winter averaging -32° C (26 below 0° F.

Learn more about biomes at: https://brainly.com/question/1930321

#SPJ1

The arrangement of erythrocytes on this peripheral blood smear may be seen in each of the following conditions except Cold agglutinin disorders

Red blood cells (RBCs), also known as erythrocytes, are the functional part of blood that transport gases & nutrients throughout the body. These specialized cells can perform their critical jobs due to their particular structure and makeup.

A particular blood cell type that is produced as in bone marrow and is present in the blood. Hemoglobin, a protein found in erythrocytes, is responsible for transporting oxygen throughout the body from the lungs. The most prevalent form of blood cell and the vertebrate's primary method of supplying oxygen to the body tissues through blood flow through the circulatory system are red blood cells, also known as red cell lines, red blood corpuscles, haematids, erythropoiesis cells, or erythrocytes.

To know more about Erythrocytes visit:

https://brainly.com/question/16794540

#SPJ4

The discovery that would most strongly imply that BoY might not be the TDF is that some XY people who mature into females have mutations in a separate gene, SRY, but are normal at BoY.

Mammals are a group of vertebrate creatures that make up the class Mammalia. They are distinguished from other vertebrate animals by the presence of three cavum bones, a pallium, and exocrine gland glands in the females that provide milk for the young.

A chromosome is a lengthy desoxyribonucleic acid molecule that contains all or part of an organism's genetic code. The packing proteins in most chromosomes coat the extremely long, thin deoxyribonucleic acid fibers; in eukaryotic cells, the histones are the most essential of these proteins.

To learn more about mammals click:

https://brainly.com/question/935140

#SPJ4

In biology Our energy exists in a free state. It shrinks or falls in a spontaneous reaction.

As spontaneous reactions develop, free energy is released. Remember that changes in the system's enthalpy and entropy determine whether a reaction is spontaneous or not. Enthalpy and entropy changes together mathematically to provide the free energy change of a process. Given that spontaneous reactions discharge free energy, the sign of ΔG must be negative. There are four different conceivable combinations because both ΔH and ΔS can be positive or negative depending on the specific reaction's properties. The following causes lead to the spontaneous generation of negative free energy: A spontaneous reaction favors the production of products in the conditions in which it occurs. A combustion reaction causes the entropy of the system to increase.

Find more about free energy

brainly.com/question/15157451

#SPJ4

The species may actually still be threatened because of a (b) bottleneck effect.

A kind of genetic drift is the bottleneck effect. Genetic drift is the process through which a population's allele frequencies shift as a result of random occurrences. There is no pressure favoring any one allele over others, and the shift in frequency is completely random.

Natural selection, in contrast to genetic drift, is a process through which a population gradually adapts to its surroundings. In contrast to genetic drift, which is a random process, natural selection promotes the fittest genes. The following are the stages of a bottle-neck effect:

Learn more about genetic drift and natural selection here:

https://brainly.com/question/12735785

#SPJ4

Answer:

The first one its B but the second one A or B

The production and processing of fruits, vegetables, flowers, aromatic and medicinal plants are all part of the burgeoning field of horticulture in agriculture.

Landscapers and horticulturists are employed by hotels, health farms, and vacation resorts to enhance their surroundings, while managers of nurseries and florists run successful businesses, particularly in major cities, in the horticulture sector. In horticulture-related fields, horticulturists work as gardeners, growers, therapists, designers, and technical advisors.

Due to the abundance of work opportunities in the academic, research, and development fields in both the commercial and public sectors in India and overseas, horticulture has emerged as one of the greatest career possibilities.

To know more about medicinal plants click here

https://brainly.in/question/49584509#

#SPJ4